CN106377925A - Oil-water separation simulation device - Google Patents
Oil-water separation simulation device Download PDFInfo
- Publication number
- CN106377925A CN106377925A CN201610968983.7A CN201610968983A CN106377925A CN 106377925 A CN106377925 A CN 106377925A CN 201610968983 A CN201610968983 A CN 201610968983A CN 106377925 A CN106377925 A CN 106377925A
- Authority
- CN
- China
- Prior art keywords
- baffle
- water
- water outlet
- end cap
- end cover
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D17/00—Separation of liquids, not provided for elsewhere, e.g. by thermal diffusion
- B01D17/02—Separation of non-miscible liquids
- B01D17/0208—Separation of non-miscible liquids by sedimentation
- B01D17/0211—Separation of non-miscible liquids by sedimentation with baffles
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/40—Devices for separating or removing fatty or oily substances or similar floating material
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/10—Nature of the water, waste water, sewage or sludge to be treated from quarries or from mining activities
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2201/00—Apparatus for treatment of water, waste water or sewage
- C02F2201/002—Construction details of the apparatus
Abstract
The invention provides an oil-water separation simulation device which comprises a body, a water inlet end cover, a water outlet cover and an inclined plate assembly, wherein the water inlet end cover and the water outlet end cover are respectively arranged at the two ends of the body, and are in seal connection with the body, a first limiting part for locating the inclined plate assembly is arranged on the water inlet end cover, a second limiting part for locating the inclined plate assembly is arranged on the water outlet end cover, and the inclined plate assembly is arranged in the body; the inclined plate assembly comprises a support part and an inclined plate; the support part comprises a hole plate for arranging the inclined plate, a first support leg and a second support leg, the first support leg and the second support leg are used for supporting the hole plate, the first support leg is fixed to the water inlet end cover through the first limiting part, and the second support leg is fixed to the water outlet end cover through the second limiting part. The device can be used for conveniently researching the influence of the water purification effects of different water treatment chemical agents, flow velocity, an inclined angle of the inclined plate and sewage standing time on the separation efficiency of an inclined-tube oil remover.
Description
Technical field
The invention belongs to oily water separation technique field is and in particular to a kind of oil-water separation analog.
Background technology
China's overwhelming majority oil field adopts the pattern of waterflooding extraction, partly in order to supplementing stratum energy;On the one hand it is
In order to reduce the impact to environment and life security for the wastewater disposition.With the process of oil exploitation, produce the moisture content of crude oil
It is continuously increased, after oil-water separation, produce substantial amounts of oilfield sewage.In order to improve the water treatment efficiency of field apparatus, need research not
The deoiling effect of equipment and water treatment capacity under same medicament, different process.
Swash plate grease trap is to be manufactured using anisotropic flow principle design, inside sets the swash plate of certain angle, and sewage passes through
Tank body top enters, sewage along swash plate flow downward when, oil slick and part oil emulsion be agglomerated into larger particles on swash plate after to
Upper floating, realizes oil-water separation.
But, at present still without the analog that can meet research swash plate grease trap deoiling effect under laboratory condition.
Content of the invention
For solving the above problems, it is an object of the invention to provide a kind of oil-water separation analog, it is easy to laboratory condition
The simulation of lower research swash plate grease trap deoiling effect.
For reaching above-mentioned purpose, the invention provides a kind of oil-water separation analog (horizontal design can be adopted), this dress
Put including body, intake end cover, water outlet end cap and type sloping plate component;
Described intake end cover and water outlet end cap are respectively arranged at the two ends of body, and are tightly connected with body;
Described intake end cover is provided with the first locating part for positioning type sloping plate component;Described water outlet end cap be provided with for
Second locating part of positioning type sloping plate component;
Described type sloping plate component is placed in body interior, including support member and swash plate;Described support member is included for placing swash plate
Orifice plate and for supporting the first leg and second leg of orifice plate, described first leg by the first locating part be fixed on into
Water end (W.E.) lid, described second leg is fixed on water outlet end cap by the second locating part.
The oil-water separation analog that the present invention provides, in order to meet the needs of experimentation, especially employs a kind of easy
In the design changing the swash plate with differing tilt angles so that becoming to the research of oil-water separation under different swash plate inclination angle
Simple.Due to swash plate fixing by the way of locating part, and body uses both ends open design, therefore, more
When changing swash plate, any one or both ends of end cap are opened simultaneously, can smoothly make the first locating part and/or the second locating part
Separated with the first leg and/or the second leg, thus being easily removed swash plate (type sloping plate component entirely can also be taken out).
In above-mentioned oil-water separation analog, the first locating part, the second locating part, the first leg, the second leg are permissible
Using this area usual manner it is therefore desirable to by the way of as far as possible choosing had then not only been easy to spacing fixation but also had been easily isolated.
In above-mentioned oil-water separation analog, type sloping plate component by the inner space of body be divided into top enter hydrospace,
Middle part swash plate space and bottom go out hydrospace, and oilfield sewage flows through that hydrospace is entered on top, middle part swash plate space, bottom go out successively
Hydrospace.
In above-mentioned oil-water separation analog, the swash plate in type sloping plate component can be understood as swash plate well known in the art
Filler or inclined tube filler.More conventional, the top surface of swash plate and bottom surface generally plane, swash plate is placed on orifice plate, and by the
One leg and the second leg can be fixed on device internal it may be necessary to water stream channel is arranged on support member, with meet into
The requirement of water outlet.In addition, it may be necessary to arrange other complementary support members in addition to the first leg and the second leg;
For orifice plate it is also possible to setting is used for fixing the fixed component of swash plate and the part increasing load-bearing property accordingly.
In a kind of preferred implementation that the present invention provides, the concrete setting of the intake end cover of oil-water separation analog
Mode is:Water inlet, first baffle and second baffle are provided with intake end cover;Wherein, described water inlet is arranged at water inlet end
Lid blind end, intake end cover inwall is disposed with first baffle and the second gear for limiting water inlet flow direction along water inlet direction
Plate;First baffle by the top down of intake end cover extend to its base be less than water inlet position, the top margin of first baffle and
Side is connected with the inner wall sealing of intake end cover respectively;Second baffle extends to its top margin by the bottom up of intake end cover
The position on first baffle base, the base of second baffle and side are connected with the inner wall sealing of water outlet end cap respectively.Preferably, enter
First locating part of water end (W.E.) lid is arranged on second baffle.
In a kind of preferred implementation that the present invention provides, the concrete setting of the water outlet end cap of oil-water separation analog
Mode is:Water side covers and is provided with outlet, third baffle, J-type mozzle, deslagging conduit and slag notch;Wherein, described go out
The mouth of a river is arranged at water outlet end cap blind end;Described third baffle is integrally connected with the inner wall sealing of water outlet end cap, and in third gear
The bottom of plate has through hole;Described J-type mozzle is arranged between third baffle and water outlet end cap blind end, J-type mozzle
Bottom level section is connected with the through hole of third baffle, and the end of top vertical pipeline section is located at the top of outlet;Described slag notch
It is arranged at water outlet end cap blind end, and is located above outlet, described slag notch is connected with one end of deslagging conduit, deslagging conduit
The other end pass through third baffle extending to above type sloping plate component.Preferably, described water outlet end cap is additionally provided with fourth gear plate,
Before along in water (flow) direction, described fourth gear plate is arranged at third baffle;Fourth gear plate is extended to by the bottom up of water outlet end cap
The position that its top margin is flushed with the orifice plate of support member, the base of fourth gear plate and side are connected with the inner wall sealing of water outlet end cap respectively
Connect, and have the through hole for water outlet in the bottom of fourth gear plate.It is further preferred that the second locating part setting of water outlet end cap
On fourth gear plate.
In a kind of preferred implementation that the present invention provides, described first locating part and the second locating part are alignment pin,
It is respectively arranged with, on first leg of type sloping plate component and the second leg, the through hole being adapted with alignment pin shape.
In a kind of preferred implementation that the present invention provides, described body is made up of transparent material, preferably common glass
Glass or quartz glass.Preferably, described intake end cover and/or water side cover and are provided with transparent window.It is further preferred that institute
The vertical pipeline section stating J-type mozzle is provided with transparent window.Using the visual design, so that can be real-time in simulation experiment
The various situations in separation process are observed on ground, are easy to more fully study the various factors in oil-water separation.In body material
Matter from upper, be preferably selected the transparent material being resistant to certain pressure, so can use more simulated environments.At this
In a kind of preferred implementation that invention provides, body adopts simple glass, and thickness is resistant to the pressure of 2MPa.
In a kind of preferred implementation that the present invention provides, the discharging hole of oil-water separation analog and the tool of evacuation port
Body set-up mode is:The bottom of described intake end cover is provided with the first discharging hole, described first discharging hole is located at first baffle
The bottom of the water stream channel being formed with second baffle;The bottom of described water outlet end cap is provided with the second discharging hole and the 3rd emptying
Mouth, described second discharging hole and the 3rd discharging hole are located at the both sides of third baffle respectively;The top of described water outlet end cap is provided with
Evacuation port, described evacuation port is located between third baffle and water outlet end cap blind end.
In a kind of preferred implementation that the present invention provides, the intake end cover of oil-water separation analog, body and go out
The connected mode of water end (W.E.) lid is:Intake end cover opening end and water outlet end cap opening end are separately provided for wrapping up body end
Epitaxy part, is provided with sealing ring and pad in described epitaxy part.
In a kind of preferred implementation that the present invention provides, this oil-water separation analog is additionally provided with for strengthening even
Connect the securing member of intensity, specially:The outer wall of described intake end cover and water outlet end cap is provided with for strengthening the tight of bonding strength
Firmware;Described securing member includes at least two groups cylinder lever connecting rods being adapted and fixed part.For example, in water outlet end cap and intake end cover
Four groups of fixed parts of the symmetrical setting of outer wall and corresponding cylinder lever connecting rod;In addition, cover acceptable in intake end cover and water side
Setting suspension part, is easy to the fixation to oil-water separation analog in simulating lab test.
In a kind of preferred implementation that the present invention provides, the angle (inclination of swash plate of water stream channel in described swash plate
Angle) it is 30 ° -60 °, preferably 50 °.
In above-mentioned oil-water separation analog, the volume of this device is difficult excessive, and its horizontal length is controlled
100mm-600mm (preferably 270-330mm), vertical height controls and compares conjunction in 50mm-400mm (preferably 90-120mm)
Suitable;Accordingly, the vertical height of swash plate control appropriate in 46-55mm.
In a kind of preferred implementation that the present invention provides, described body is cylindric, described intake end cover and water outlet
End cover designs are the arc-shaped being adapted with body.It is further preferred that for the needs meeting laboratory experiment, the water of this device
Flat length is 310mm, and the internal diameter of cylindrical body is 110mm, and the vertical height of swash plate is 110mm, water stream channel in swash plate
Angle is 50 °.
The advantage of the oil-water separation analog of the present invention is:Can easily need to change type sloping plate component according to experiment,
Type sloping plate component is designed as different angles of inclination, the separation efficiency of the different settling area of research;And, body is set to
The real-time monitored to oil water separation process can be realized, therefore, this device can be used to study Water condition medicament during bright material
Purifying water effect, flow velocity, swash plate angle of inclination, the impact to inclined tube grease trap separation efficiency for the dwell time of sewage.In addition, this
The oil-water separation analog of bright offer, not only integrally-built design is unique, and in some preferred implementations, is filling
Divide on the basis of considering the needs optimizing oil-water separation condition, by the baffle plate within device, type sloping plate component, J-type pipe etc.
Particular design, define uniqueness water stream channel, be that the desk research of oil-water separation provides hardware foundation.
Brief description
Fig. 1 is the cross-sectional view (not including securing member) of embodiment 1 oil-water separation analog;
Fig. 2 is the perspective view of embodiment 1 oil-water separation analog;
Fig. 3 is the structural representation of embodiment 1 oil-water separation analog intake end cover;
Fig. 4 is the structural representation of embodiment 1 oil-water separation analog water outlet end cap;
Fig. 5 is the current route map of embodiment 1 oil-water separation analog;
Fig. 6 is the dimensional drawing (not including securing member) of embodiment 1 oil-water separation analog;
Drawing reference numeral explanation:
1 cylinder, 2 intake end covers, 3 water outlet end caps, 4 screw rods, 5 type sloping plate components, 6 nuts, 7 sealing rings, 8 pads, 9 bolts,
10 suspension parts, 201 water inlets, 202 first baffles, 203 second baffles, 204 first discharging holes, 205 intake end cover alignment pins,
301 outlets, 302 slag notches, 303 third baffles, 304J type mozzle, 305 deslagging conduits, 306 evacuation ports, 307 second rows
Net mouth, 308 the 3rd discharging holes, 309 fourth gear plates, 310 water outlet end cap alignment pins, 311 fixing feet, 501 swash plates, 502 orifice plates,
503 first legs, 504 second legs.
Specific embodiment
In order to be more clearly understood to the technical characteristic of the present invention, purpose and beneficial effect, the now skill to the present invention
Art scheme carry out described further below, but it is not intended that to the present invention can practical range restriction.
Embodiment 1
Present embodiments provide a kind of oil-water separation analog (visualization), (Fig. 1 is that the section of this device shows to this device
It is intended to, Fig. 2 is the perspective view of this device) include cylinder 1, intake end cover 2, water outlet end cap 3, screw rod 4, type sloping plate component
5th, nut 6, sealing ring 7, pad 8, bolt 9, suspension part 10;Wherein,
Cylinder 1 is made up of clear glass;Intake end cover 2 and water outlet end cap 3 are respectively arranged at the two ends of cylinder 1, and with cylinder
Body 1 is tightly connected;
Be provided with intake end cover 2 (Fig. 3 is the structural representation of intake end cover) water inlet 201, first baffle 202, the
Two baffle plates 203, the first discharging hole 204, intake end cover alignment pin 205 and the epitaxy part for wrapping up cylinder 1;Wherein, intake
Mouth 201 is arranged in the middle part of the blind end of intake end cover 2, and intake end cover 2 inwall is disposed with first baffle 202 along water inlet direction
With second baffle 203;First baffle 202 extends to, by the top down of intake end cover, the position that its base is less than water inlet 201,
The top margin of first baffle 202 and side are connected with the inner wall sealing of intake end cover 2 respectively;Second baffle 203 is by intake end cover 2
Bottom up extends to the position that its top margin is higher than first baffle 202 base, the base of second baffle 203 and side respectively with go out
The inner wall sealing of water end (W.E.) lid connects;Intake end cover alignment pin 205 is arranged on second baffle 203;First discharging hole 204 is arranged at
The bottom of intake end cover, is particularly located at the bottom of the water stream channel of first baffle 202 and second baffle 203 formation;
It is provided with outlet 301, slag notch the 302, the 3rd on water outlet end cap 3 (Fig. 4 is the structural representation of water outlet end cap)
Baffle plate 303, J-type mozzle 304, deslagging conduit 305, evacuation port 306, the second discharging hole 307, the 3rd discharging hole 308, fourth gear
Plate 309, water outlet end cap alignment pin 310, fixing foot 311 and the epitaxy part for wrapping up cylinder 1;Wherein, outlet 301 is arranged
In the middle part of the blind end of water outlet end cap 3;Third baffle 303 is overall to be connected with the inner wall sealing of water outlet end cap 3, and in third baffle
303 bottom has through hole;J-type mozzle 304 is arranged between third baffle 303 and water outlet end cap blind end, its bottom water
Flat section is connected with the through hole of third baffle 303, and the end of top vertical pipeline section is located at the top of outlet 301 and by fixing foot
11 are fixed in third baffle 303, in addition, being additionally provided with transparent window in the middle and upper part of vertical pipeline section;Slag notch 302 is arranged at
Water outlet end cap blind end, and be located above outlet 301, slag notch 302 is connected with one end of deslagging conduit 305, deslagging conduit
305 other end passes through third baffle 303 and extends to above type sloping plate component 5;Along in water (flow) direction, third baffle 303 it
Before be additionally provided with fourth gear plate 309, fourth gear plate 309 extends to its top margin and support member by the bottom up of water outlet end cap 3
The position that orifice plate 502 flushes, its base and side are connected with the inner wall sealing of water outlet end cap respectively, water outlet end cap alignment pin 310
It is arranged on 309 on fourth gear plate, also have the through hole for water outlet in the bottom of fourth gear plate;Second discharging hole 307 and
Three discharging holes 308 are arranged at the bottom of water outlet end cap 3, and specifically, the second discharging hole 307 is located at third baffle 303 and fourth gear
Between plate 309, the 3rd discharging hole 308 is located between third baffle 303 and the blind end of water outlet end cap;Evacuation port 306 is arranged at
The top of water outlet end cap 3, is particularly located between third baffle 303 and water outlet end cap blind end;
Type sloping plate component 5 is made up of support member and swash plate;Support member includes orifice plate 502, the first leg 503, the second leg 504
And side shield;First leg 503 and the second leg 504 are respectively and fixedly connected with the two ends in orifice plate, open in the bottom of the second leg 504
Have with the through hole of fourth gear plate 309 to the water stream channel connecting;Side shield is arranged at the top of the second leg 504, and is set to
It is adapted with the angle of inclination of swash plate;In swash plate, the angle of water stream channel is 50 °, is placed on orifice plate, and one end and side shield
Abut against, former and later two sides of swash plate are set to be adapted with the inwall of body 1;It is fixed that first leg 503 passes through intake end cover
Position pin 205 is fixed with intake end cover, and the second leg 504 is fixed by water outlet end cap alignment pin 310 and water outlet end cap;
The epitaxy part of intake end cover 2 and water outlet end cap 3 wraps up the two ends of cylinder 1 respectively, and passes through sealing ring 7 and pad 8
It is connected and sealed;The epitaxy part of intake end cover 2 and water outlet end cap 3 is additionally provided with securing member, this securing member is by four groups of spiral shells
Bar 4, nut 6 and bolt 9 form;In addition, suspension part 10 is additionally provided with securing member.
The dimensional drawing of the oil-water separation analog that the present embodiment provides is as shown in fig. 6, the length of device is 310mm, interior
Footpath is 110mm, and the inclination angle of swash plate is 50 °.
The operating process carrying out oil-polluted water oil removing using said apparatus is as follows:As shown in figure 5, oilfield injection water is from water inlet
Mouth 201 entrance oil-water separation analog, after the water stream channel being formed by first baffle 202 and second baffle 203, enter cylinder
Body, the water of entrance cylinder flows down after covering swash plate from the pipeline of swash plate.The effect of first baffle plate 202 is by water inlet
201 water down drain, it is to avoid the water of water inlet 201 directly impacts swash plate;The effect of second baffle 203 is mainly past
Dirty water up draws, and allows sewage to enter along swash plate direction.Precipitate etc. slides and concentration along the tube wall of swash plate, relies on its density
Difference rises or sink to pot bottom, and motion in swash plate pipeline for the mud is:The granule of sedimentation is downward using the gravity of its own
Motion, is gathered the bottom of swash plate pipeline, the bottom of swash plate pipeline simultaneously works as slip plate by the concentration granule of slide downward
Effect, the bigger gravity of concentration granule is bigger, separates faster.The water that swash plate pipeline bottom is flowed out is through J-type mozzle 304 and water outlet
Mouth 301 outflow oil-water separation analog.The oil floating flows out through deslagging conduit 305 and slag notch 302.
Embodiment 2
Present embodiments provide the simulation experiment carrying out oil-water separation using the oil-water separation analog of embodiment 1, tool
Body is as follows:
For studying the different impacts to wastewater treatment efficiency for the swash plate inclination angle, with containing containing poly- 200mg/L, SS=100mg/L
Poly- oil-containing simulation sewage sample is tested.Employ three kinds of swash plates respectively, in swash plate, the aperture of pipeline is DN=15mm, inclination angle
Degree is respectively 45 °, 50 °, 60 °;Water cleaning agent BHQ-04 dosage is 200mg/L, dwell time of sewage 20min, carries out swash plate oil removing
, to the different experimentatioies containing poly- oil-polluted water removal efficiency, result is as shown in table 1 for tank, filter.
The impact (DN15mm) to wastewater treatment efficiency for the table 1 swash plate inclination angle
Table 1 as shown by data, the oil removal rate that 45 ° and 50 ° of inclined tube inclination angle is very nearly the same, is increased to 60 ° with inclined tube inclination angle
When, oil removal rate and removal efficiency all on a declining curve.Because polymer-bearing waste-water has certain viscosity, mud easily assemble agglomerating,
For preventing from separating the polymer-containing oil sludge blocking inclined tube bottom assembled, inclined tube inclination angle should not too little it is considered to the composite factor such as separation efficiency,
This is advisable with 50 ° containing poly- oil-polluted water sample inclined tube inclination angle.
Using the device in embodiment 1, can easily change swash plate and (or change again after type sloping plate component is integrally taken out
Swash plate), the separation efficiency of the different settling area of research;And, cylinder can be realized to oil-water separation using the visual design
The real-time monitored of journey.
Claims (10)
1. a kind of oil-water separation analog is it is characterised in that this device includes body, intake end cover, water outlet end cap and swash plate
Assembly;
Described intake end cover and water outlet end cap are respectively arranged at the two ends of body, and are tightly connected with body;
Described intake end cover is provided with the first locating part for positioning type sloping plate component;Described water outlet end cap is provided with for positioning
Second locating part of type sloping plate component;
Described type sloping plate component is placed in body interior, including support member and swash plate;Described support member includes the hole for placing swash plate
Plate and the first leg and the second leg for supporting orifice plate, described first leg is fixed on water inlet end by the first locating part
Lid, described second leg is fixed on water outlet end cap by the second locating part.
2. oil-water separation analog according to claim 1 is it is characterised in that be provided with into water on described intake end cover
Mouth, first baffle and second baffle;
Wherein, described water inlet is arranged at intake end cover blind end, intake end cover inwall along water inlet direction be disposed with for
Limit first baffle and the second baffle of water inlet flow direction;
First baffle by the top down of intake end cover extend to its base be less than water inlet position, the top margin of first baffle and
Side is connected with the inner wall sealing of intake end cover respectively;
Second baffle extends to, by the bottom up of intake end cover, the position that its top margin is higher than first baffle base, second baffle
Base and side are connected with the inner wall sealing of water outlet end cap respectively;
Preferably, the first locating part of intake end cover is arranged on second baffle.
3. oil-water separation analog according to claim 1 is it is characterised in that described water side covers and is provided with water outlet
Mouth, third baffle, J-type mozzle, deslagging conduit and slag notch;
Wherein, described outlet is arranged at water outlet end cap blind end;The overall inner wall sealing with water outlet end cap of described third baffle
Connect, and have through hole in the bottom of third baffle;
Described J-type mozzle is arranged between third baffle and water outlet end cap blind end, the bottom level Duan Yu of J-type mozzle
The through hole connection of three baffle plates, the end of top vertical pipeline section is located at the top of outlet;
Described slag notch is arranged at water outlet end cap blind end, and is located above outlet, described slag notch and the one of deslagging conduit
End connection, the other end of deslagging conduit passes through third baffle and extends to above type sloping plate component.
4. oil-water separation analog according to claim 3 is it is characterised in that described water outlet end cap is additionally provided with the 4th
Baffle plate, before along in water (flow) direction, described fourth gear plate is arranged at third baffle;
Fourth gear plate extends to the position that its top margin is flushed, fourth gear plate with the orifice plate of support member by the bottom up of water outlet end cap
Base and side be connected with the inner wall sealing of water outlet end cap respectively, and have logical for water outlet in the bottom of fourth gear plate
Hole;
Preferably, the second locating part of water outlet end cap is arranged on fourth gear plate.
5. the oil-water separation analog according to any one of claim 1-4 it is characterised in that described first locating part and
Second locating part is alignment pin, the first leg of type sloping plate component and the second leg is respectively arranged with and is adapted with alignment pin shape
Through hole.
6. the oil-water separation analog according to any one of claim 1-4 is it is characterised in that described body is by transparent material
Matter is made, preferably simple glass or quartz glass;
It is highly preferred that described intake end cover and/or water side cover and are provided with transparent window;
It is further preferred that the vertical pipeline section of described J-type mozzle is provided with transparent window.
7. oil-water separation analog according to claim 1 and 2 is it is characterised in that bottom in described intake end cover
It is provided with the first discharging hole, described first discharging hole is located at the bottom of the water stream channel of first baffle and second baffle formation;
The bottom of described water outlet end cap is provided with the second discharging hole and the 3rd discharging hole, described second discharging hole and the 3rd discharging hole
It is located at the both sides of third baffle respectively;
The top of described water outlet end cap is provided with evacuation port, described evacuation port be located at third baffle and water outlet end cap blind end it
Between.
8. oil-water separation analog according to claim 1 is it is characterised in that described intake end cover opening end and water outlet
End cap opening end is separately provided for wrapping up the epitaxy part of body end, is provided with sealing ring and pad in described epitaxy part.
9. oil-water separation analog according to claim 8 is it is characterised in that described intake end cover and water outlet end cap
Outer wall is provided with the securing member for strengthening bonding strength;
Described securing member includes at least two groups cylinder lever connecting rods being adapted and fixed part.
10. the oil-water separation analog according to any one of claim 1-4 is it is characterised in that current in described swash plate
The angle of passage is 30 ° -60 °, preferably 50 °.
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CN201610968983.7A CN106377925B (en) | 2016-10-28 | 2016-10-28 | A kind of water-oil separating simulator |
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CN201610968983.7A CN106377925B (en) | 2016-10-28 | 2016-10-28 | A kind of water-oil separating simulator |
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CN106377925B CN106377925B (en) | 2018-11-16 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108328686A (en) * | 2018-02-02 | 2018-07-27 | 东北石油大学 | More rotation gravity drive type grease coarse separation tanks |
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CN108328686B (en) * | 2018-02-02 | 2021-03-30 | 东北石油大学 | Multi-rotation gravity drive type oil-water coalescence-separation tank |
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